This event is being run by SAC Consulting Managing Soil and Drainage in the Flood Plain Key factors for movement of water in the flood plain Soil Texture Soil Structure Natural drainage paths Artificial Land Drainage 1
Soil Texture What is Soil? 2
Soil Texture It describes the physical composition of the soil % of sand, silt and clay Refers to the mineral fragments of the soil only water and organic material are not considered only considers particles <2mm Texture is a stable soil property - does not change measurably over a long period of years 5 Soil texture & water The sizes of pores in a soil are related to its texture Sands have large pores Clays have small pores Large pores allow free drainage Sandy soils drain more easily than clays Small pores store water Clay soils have a bigger water holding capacity than sandy soils 6 3
Soil texture classes 0 10 80 90 10 20 <0.002 mm 70 60 Clay 50 Clay 30 40 Silt 50 0.06-0.002 mm 60 40 Siltyclay Sandyclay 70 30 Siltyclay Clayloam loam 80 20 Sandyclayloam 90 10 Sandyloam Sandysilt loamsilt loam Loamy 10 0 Sandsand 10 90 80 70 60 50 40 30 20 10 0 Sand 2-0.06 mm 7 Benefits of soil organic matter Develops and maintains soil structure Supplies mineral nutrients Increases water holding capacity Retains nutrients that might be leached out Increases availability of micronutrients to plants Substrate for soil organisms Darkens colour - increases rate of warming 8 4
Water in soil Gravitational water drains freely from large pores only available to plants for a short time Capillary water held in small pores available for plants Hygroscopic water held tightly around small particles not available to plants 9 Soil Structure 5
Soil structure: the importance of macropores Macropores and cracks : allow water infiltration and drainage, keep the soil aerated reducing nitrous loss and increase water uptake and crop yield. 11 Improved chart 12 6
Benefits of Good Soil Structure Good structure improves aeration & reduces waterlogging easier for roots to access nutrients leaching of nutrients less likely Good structure reduces compaction more extensive root system better water & nutrient uptake Good structure reduces droughtiness improves nutrient uptake 13 Structure-forming processes Activity of roots and soil organisms especially earthworms mixing, cementing, transforming needs organic matter Wetting & drying swelling & shrinkage Freezing & thawing Organic matter is key to structure formation and maintenance 14 7
Topsoil structures Well structured sandy soil Well structured clay soil Compact sandy soil Compact clay soil 15 Soil Compaction 8
Main causes of compaction Over-cultivation Continuous cultivation Heavy machinery Working in wet conditions Over-grazing 17 Effects of Compaction 9
Image: Farmers Weekly 17/02/2017 Compaction Reduces infiltration and Increases surface run-off Soil structure is affected by management Compaction Poaching Waterlogging 20 10
Depth, inches 17/02/2017 Compaction and soil moisture Tractor tyre Soil surface http://www.engr.uconn.edu/~lanbo/ce240lectw041fieldcompaction.pdf Dealing with compaction Avoid compacting the soil in the first place (Prevention) Change management systems to protect soil Make the soil more resistant to compaction Protect the soil against raindrop impact - protects soil structure Eradicate the compaction (Cure) 22 11
Subsoiling Some soils benefit from subsoiling Subsoiling aims to loosen the soil and allow water to flow more freely through it Can be effective in soils of low clay content or stony soils where mole drains would not work 23 Subsoil shatter 24 12
Effective Disturbed Area Remediation of subsoil compaction and pans Make fissures through the layer with minimal soil break up and mixing. This creates paths for drainage and root movement while keeping the support capacity of the compacted layer http://vro.dpi.vic.gov.au/dpi/vro/vrosite.nsf/pages/gloss_ac 13
Remediation of poaching, shallow compaction www.sumo1.com 27 Grassland Subsoilers / Sward lifters Pre-cutting Disc and Closer leg spacing Roller for depth control and break back legs to reduce brining stones to the surface Spiked roller to help aereate surface Roller to level surface following treatment 28 14
Grassland Surface Spikers Grassland spiker Effect of surface spiking Pasture Harrow Roller spiker with grass seeder and frame for extra weights Spiker with water tank for extra weights 29 When to subsoil Only when necessary - check the subsoil for compaction When the subsoil is brittle i.e. not too dry or too wet Post Harvest subsoiling is generally best in terms of land access and soil suitability Spring subsoiling gives the longest benefit if done in the correct conditions 30 15
Land Drainage Water path ways Infiltration into soil Precipitation Interception & evaporation Percolation Transpiration through soil Overland flow Water table Soil interflow Groundwater flow Stream Spring Impervious layer 16
Drainage Problems Surface water Ground water Springs 33 Problem Occurrence During the late 1970,s the various drainage problems were broken down into the following types, Drainage Problem Scotland as a Whole North East Scotland % of % of problems problems Water Table 25 22 Impermeable 20 13 Subsoil Springs 12 39 Failure of Old 39 25 Drains Other 4 1 34 17
Benefits of Good Drainage Less surface run-off Improved root growth Greater soil biology Better crop and grass yields Better animal health reduces risk of some parasites and diseases Less soil damage Longer utilisation of fields 35 Drainage of impermeable soils surface water problem Poor downward drainage Effective drainage only if moled or subsoiled Permeable backfill to connect flow to drain Must have gravel backfill to connect to drains 36 18
Subsoilers open up the soil 37 Drainage of permeable soils ground water problem Rapid infiltration Water table No permeable backfill necessary 38 19
Drainage Maintenance Mark outfalls clearly. Clear outfalls on a regular basis (annual / bi annual). Clear ditches on a regular basis Clay soils every 3 to 5 years, sandy soils every 1 to 2 years. Keep trees, shrubs and bushes on the banks cut back every 3 to 5 years (Especially important on flood banks). Drainage Maintenance (2) Check and clear culverts on an annually in late summer / early autumn in preparation for winter rainfall. Check flood banks every summer and after flood event for damage. Every 3 to 5 years check and repair culvert banks and crossing surface. Where flap valves are installed check on an annual basis that they are free to open and close before winter rains. Annually mark unusual wet areas on a plan and compare with drainage plans to identify areas that may need existing systems repaired or new drains installed. 20